A fluid-operated actuating drive on a valve comprising a base unit (2) having an electro-fluidic signal converter and a fluidic controller and at least one linear actuator (4) that can be actuated using the fluidic controller, wherein the gate (11) of the linear actuator is directly or indirectly co
A fluid-operated actuating drive on a valve comprising a base unit (2) having an electro-fluidic signal converter and a fluidic controller and at least one linear actuator (4) that can be actuated using the fluidic controller, wherein the gate (11) of the linear actuator is directly or indirectly coupled to the inlet of the valve. A control unit (22) is connected to a signal input of the base unit, wherein the signal output is connected to the electro-fluidic signal converter. The actual value signal of a measurement transducer (24) associated to the valve is fed back to the control unit. A fluidic internal control circuit (27) is arranged functionally between the signal input and the at least one linear actuator, preferably downstream of the electro-fluidic signal converter.
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1. A fluid-operated actuating drive on a valve comprising: a base unit (6) provided with a fluidic control system, upstream from which there is disposed an electrofluidic signal transducer with proportional output response, and at least one linear actuator (4), which can be operated by using the flu
1. A fluid-operated actuating drive on a valve comprising: a base unit (6) provided with a fluidic control system, upstream from which there is disposed an electrofluidic signal transducer with proportional output response, and at least one linear actuator (4), which can be operated by using the fluidic control system and having a slide (11) that is coupled directly or indirectly with an input of the valve,wherein the base unit comprises: a signal input of the electrofluidic signal transducer, to which signal input there is connected an external electrical regulating unit comprising: input means,a setpoint input,a regulating electronic unit,a signal output of the external electrical regulating unit in communication with the signal input of the electrofluidic signal transducer, anda signal generator,to which external electrical regulating unit an actual-value signal of a measuring sensor (24) associated with the valve is fed back, anda fluidic internal regulating circuit (27; 65, 71) functionally disposed between the signal input and the at least one linear actuator downstream from the electrofluidic signal transducer,wherein the at least one linear actuator (4) is constructed as an actuator urged by fluid on both sides, and having two working chambers (9, 10) constantly connected to a pressurized-fluid supply,wherein the fluidic internal regulating circuit (27; 71) comprises a regulating group (29) connected upstream from the linear actuator (4) and having two structural units that can be moved relative to one another and that release or close control apertures, wherein a first structural unit is coupled with a pilot cylinder (38) urged by a control pressure and the second structural unit is coupled with the slide (11) of the linear actuator (4), andwherein the regulating group (29) is provided with two drain valves (47), which respectively comprise a valve seat mounted displaceably against a preload inside a housing (30). 2. The drive according to claim 1, wherein the fluidic internal regulating circuit is constructed as a subordinate positioning regulating circuit (27; 71). 3. The drive according to claim 1, wherein the electrofluidic signal transducer together with a closed regulating circuit, is constructed as a subordinate regulating circuit. 4. The drive according to claim 1, wherein the regulating group (29) communicates via a respective drain line (42) with the two working chambers (9, 10). 5. The drive according to claim 1, further comprising two linear actuators (4) with respective slides disposed opposite one another and one mechanical converter (W) disposed between the two linear actuators and which couples their slides with one another. 6. The drive according to claim 1, further comprising indicator means (26), end switches, end stops, end-position dampers, manual actuating means and/or position sensors (24) in addition to the measuring sensor. 7. The drive according to claim 1, wherein the base unit (6) comprises a pressurized-fluid supply unit (5). 8. The drive according to claim 7, wherein the pressurized-fluid supply unit (5) comprises a hydraulic assembly (13) fed from a tank (16) and equipped with a pump (15) driven by an electric motor (14). 9. The drive according to claim 7, wherein the pressurized-fluid supply unit further comprises a pneumatic compressor (55) driven by an electric motor (14) and aspirating ambient medium. 10. The drive according to claim 1, further comprising a filling port suitable for the first filling of the fluid system with hydraulic fluid from a cartridge. 11. The drive according to claim 1, wherein pneumatic auxiliary energy is used and an I/P (current to pressure) converter is employed as the electrofluidic signal transducer (20). 12. The drive according to claim 11, where the I/P converter is equipped with an internal pressure sensor (67) and an internal pressure-regulating circuit (65). 13. The drive according to claim 12, wherein the I/P converter has no inherent air consumption in the regulated condition. 14. The drive according to claim 12, wherein the pressure-sensor signal is transmitted for external processing to the electrical regulating unit. 15. The drive according to claim 11, wherein the I/P converter is operated by particularly energy-efficient and highly dynamic piezo valve technology.
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